Capillary detachment of a microparticle from a liquid–liquid interface†
Abstract
The attachment and detachment of microparticles at a liquid–liquid interface are common in many material systems, from Pickering emulsions and colloidal assemblies to capillary suspensions. Properties of these systems rely on how the particles interact with the liquid–liquid interface, including the detachment process. In this study, we simultaneously measure the capillary detachment force of a microparticle from a liquid–liquid interface and visualize the shape of the meniscus by combining colloidal probe microscopy and confocal microscopy. The capillary behavior is studied on both untreated (hydrophilic) and fluorinated (hydrophobic) glass microparticles. The measured force data show good agreement with theoretical calculations based on the extracted geometric parameters from confocal images of the capillary bridge. It is also evident that contact line pinning is an important aspect of detachment for both untreated and fluorinated particles.
- This article is part of the themed collection: Soft Matter Emerging Investigators Series